CN104859307B - A kind of multilayer digital inkjet printing machine - Google Patents

Abstract

The present invention provides a kind of multilayer digital inkjet printing machine, comprise nose assembly and print platform, wherein print platform comprises 2-5 layer printing flat board, print flat board and comprise left side initiatively feed preparation unit roller, right side is cloth beam initiatively, front support roller and rear support roller, above active cloth beam and active cloth beam, distribution adds the pretreatment roller and dryer roll that comprise heater, nose assembly comprises 2-5 layer printer head group, printer head group comprises left support bar and right support bar, left support bar and right support bar are placed with print bar, print bar is connected with jet head sets, jet head sets is placed with the black stack in left and right, the black stack in left and right is connected with left and right print cartridge by ink channel.The present invention has the print platform of sandwich construction by adopting, supporting corresponding sandwich construction nose assembly, develops a kind of multilayer digital inkjet printing machine, thus realizes disposable batch examination stamp, significantly improves stamp efficiency.

Description

A kind of multilayer digital inkjet printing machine

Technical field

The present invention relates to digital inking printing new technical field, specifically a kind of multilayer digital inkjet printing machine.

Background technology

Digital ink jet printing technology is a kind of new high-tech product integrating machinery, computer electronic information technology formed gradually along with computer technology development, come across the mid-90 in 20th century the earliest, the appearance of this technology is with constantly perfect, a completely new concept is brought to textile printing and dyeing industry, the production principle of its advanced person and means, a unprecedented opportunity to develop is brought to textile printing and dyeing, be described as 21 century textile industry revolution technology, it becomes the capital equipment of printing in textiles by progressively replacing traditional stamp mode.In recent years, domestic and international Digital ink jet printing technology achieves significant progress, and wherein conduction band type digital inkjet printing machine prints because it can realize continuity mass, and technology is constantly perfect, and the kind of product and function are also constantly perfect.

For traditional conduction band type digital inkjet printing machine, in its stamp process, relate generally to two kinds of motion controls, first is the motion of jet head sets word car on fabric width direction, second is the horizontal movement of conduction band on fabric length direction, conduction band is driven by conduction band driven roller and moves in a circle along conduction band driven roll, conduction band deviation rectification roller and auxiliary deviation rectification roller, prints to realize continuity mass.Printer head assembly conventional at present all adopts single spraying head group stamp, and once only can complete the printing of one piece of fabric, efficiency is lower.

For this, the present invention provides a kind of multilayer digital inkjet printing machine, comprise nose assembly and print platform, wherein print platform comprises 2-5 layer printing flat board, print flat board and comprise left side initiatively feed preparation unit roller, right side is cloth beam initiatively, front support roller and rear support roller, above active cloth beam and active cloth beam, distribution adds the pretreatment roller and dryer roll that comprise heater, nose assembly comprises 2-5 layer printer head group, printer head group comprises left support bar and right support bar, left support bar and right support bar are placed with print bar, print bar is connected with jet head sets, jet head sets is placed with the black stack in left and right, the black stack in left and right is connected with left and right print cartridge by ink channel.The present invention has the print platform of sandwich construction by adopting, supporting corresponding sandwich construction nose assembly, develops a kind of multilayer digital inkjet printing machine, thus realizes disposable batch examination stamp, significantly improves stamp efficiency.

Summary of the invention

Technical problem to be solved by this invention provides a kind of multilayer digital inkjet printing machine, thus realize disposable batch examination stamp, significantly improves stamp efficiency.

In order to achieve the above object, the technical solution used in the present invention is, a kind of multilayer digital inkjet printing machine, comprise nose assembly and print platform, described nose assembly comprises left front bracing frame, right anterior branch support, left back bracing frame and right back bracing frame, support frame as described above is placed with 2-5 layer printer head group, described printer head group comprises left support bar and right support bar, two ends, described left support bar left and right are separately fixed on left front bracing frame and right anterior branch support, two ends, described right support bar left and right are separately fixed on left back bracing frame and right back bracing frame, the medial surface of described left support bar and right support bar has slideway, described left support bar and right support bar are placed with cylindrical print bar, described print bar is embedded in the inner side slideway of left support bar and right support bar by two ends, left and right and is connected on left support bar and right support bar, left front pulley and right front pulley is added in the left and right sides of described left support bar, described left front pulley is connected with the left built-in end of print bar by front belt with right front pulley, left rear pulley and right back pulley is added in the left and right sides of described right support bar, described left rear pulley is connected with the right built-in end of print bar by rear belt with right back pulley, described left front pulley and left rear pulley are driven by the first servomotor, described print bar is connected with jet head sets, described jet head sets comprises connector, left black stack, right black stack and printing head, described jet head sets is connected on print bar by connector, install additional by left chain wheel and right pulley at the left end of described print bar and right-hand member, described left chain wheel, right pulley is connected by the first belt with connector, described left chain wheel is driven by the second servomotor, described right anterior branch support adds right front print cartridge, described right back bracing frame adds right back print cartridge, described right front print cartridge is connected with left black stack by front ink channel, described right back print cartridge is connected with right black stack by rear ink channel, described left support bar adds USB interface, described USB interface is connected with jet head sets, described print platform comprises left front printing bracing frame, right front printing bracing frame, left back printing bracing frame and right back printing bracing frame, described printing bracing frame is placed with 2-5 layer to be printed dull and stereotyped, described printing flat board comprises left printing support bar and right printing support bar, two ends, described left printing support bar left and right are separately fixed on left front printing bracing frame and right front printing bracing frame, two ends, described right printing support bar left and right are separately fixed on left back printing bracing frame and right back printing bracing frame, described left printing support bar and right printing support bar are connected with front support roller and rear support roller, described front support roller is connected on left printing support bar and right printing support bar respectively by the first fore bearing and the first rear bearing, described rear support roller is connected on left printing support bar and right printing support bar respectively by the second fore bearing and the second rear bearing, the first support bar and the second support bar is added in the left front of described left front printing bracing frame and left back printing bracing frame, described first support bar and the second support bar are connected with the first feed preparation unit roller and the second feed preparation unit roller, described first feed preparation unit roller is connected with the second support bar with the first support bar by bearing with the second feed preparation unit roller, angle between described first support bar and the second support bar is between 30-60 degree, described first feed preparation unit roller and the second feed preparation unit roller are driven by the 3rd servomotor, the 3rd support bar is added in the left front of described left front printing bracing frame and left back printing bracing frame, described 3rd support bar is connected with preheat roll, described preheat roll is connected with the 3rd support bar by bearing, the first heating wire is added in described preheat roll inside, described preheat roll is greater than the first feed preparation unit roller and the second feed preparation unit roller horizontal range to left front printing bracing frame and left back printing bracing frame to the horizontal range of left front printing bracing frame and left back printing bracing frame, described preheat roll is less than left printing support bar and the right printing support bar vertical range to ground to the vertical range on ground, the 4th support bar and the 5th support bar is added in the right back of described right front printing bracing frame and right back printing bracing frame, described 4th support bar and the 5th support bar are connected with first volume cloth rewinder roll and volume Two cloth rewinder roll, described first volume cloth rewinder roll is connected with the 5th support bar with the 4th support bar by bearing with volume Two cloth rewinder roll, angle between described 4th support bar and the 5th support bar is between 30-60 degree, described first volume cloth rewinder roll and volume Two cloth rewinder roll are driven by the 4th servomotor, the 6th support bar is added in the right back of described right front printing bracing frame and right back printing bracing frame, described 6th support bar is connected with dryer roll, described dryer roll is connected with the 6th support bar by bearing, the second heating wire is added in described dryer roll inside, described dryer roll is greater than first volume cloth rewinder roll and the volume Two cloth rewinder roll horizontal range to right front printing bracing frame and right back printing bracing frame to the horizontal range of right front printing bracing frame and right back printing bracing frame, described dryer roll is less than left printing support bar and the right printing support bar vertical range to ground to the vertical range on ground, described first servomotor, second servomotor, 3rd servomotor is connected with programmable logic controller (PLC) by wire with the 4th servomotor, described left front printing bracing frame and left back printing bracing frame, horizontal cross distance between right front printing bracing frame and right back printing bracing frame is less than left front bracing frame and left back bracing frame, horizontal cross distance between right anterior branch support and right back bracing frame, described left front printing bracing frame and right front printing bracing frame, horizontal vertical between left back printing bracing frame and right back printing bracing frame is less than left front bracing frame and right anterior branch support to distance, horizontal vertical between left back bracing frame and right back bracing frame is to distance.

During use, first, printing fabric is placed on the first feed preparation unit roller and the second feed preparation unit roller, then fabric is walked around preheat roll respectively, front support roller, rear support roller, be wrapped in after dryer roll on cloth beam, cloth beam is placed on first volume cloth rewinder roll and volume Two cloth rewinder roll, during stamp, USB interface is connected with computer, printed drawings picture is delivered to jet head sets by USB interface by computer after image processing software process, during fabric printing, two kinds of printing models can be divided into, one is fixed-machine-head type, now jet head sets is driven by the second servomotor and moves along print bar direction, then the 3rd servomotor and the 4th servomotor drive cloth beam and feed preparation unit roller motion respectively, a traverse thus drive fabric travels forward, and so forth, finally complete the stamp of image, two is mobile frame heads, now jet head sets is driven by the second servomotor and moves along print bar direction, then the first servomotor drives print bar to travel forward a traverse, 3rd servomotor and the 4th servomotor drive cloth beam and feed preparation unit roller motion respectively simultaneously, a traverse thus drive fabric travels forward, when print bar moves to end, returns and moves forward, and so forth, the stamp of image is finally completed.

The present invention has the print platform of sandwich construction by arranging, supporting corresponding sandwich construction nose assembly, develops a kind of multilayer digital inkjet printing machine, thus realizes disposable batch examination stamp, significantly improves stamp efficiency.

Accompanying drawing explanation

Fig. 1 is the nose assembly structural representation of multilayer digital inkjet printing machine of the present invention.

Fig. 2 is the print platform structural representation of multilayer digital inkjet printing machine of the present invention.

Detailed description of the invention

Shown in Fig. 1 and Fig. 2, a kind of multilayer digital inkjet printing machine, comprise nose assembly and print platform, wherein nose assembly comprises left front bracing frame 1, right anterior branch support 2, left back bracing frame 4 and right back bracing frame 3, bracing frame is placed with 2-5 layer printer head group, printer head group comprises left support bar 5 and right support bar 6, left support bar about 5 two ends are separately fixed on left front bracing frame 1 and right anterior branch support 2, right support bar about 6 two ends are separately fixed on left back bracing frame 4 and right back bracing frame 3, the medial surface of left support bar 5 and right support bar 6 has slideway, left support bar 5 and right support bar 6 are placed with cylindrical print bar 13, print bar 13 is embedded in the inner side slideway of left support bar 5 and right support bar 6 by two ends, left and right and is connected on left support bar 5 and right support bar 6, left front pulley 8 and right front pulley 7 is added in the left and right sides of left support bar 5, left front pulley 8 is connected with the left built-in end of print bar 13 by front belt 11 with right front pulley 7, left rear pulley 10 and right back pulley 9 is added in the left and right sides of right support bar 6, left rear pulley 10 is connected with the right built-in end of print bar 13 by rear belt 12 with right back pulley 9, left front pulley 8 and left rear pulley 10 are driven by the first servomotor 25, print bar 13 is connected with jet head sets 14, jet head sets 14 comprises connector, left black stack 15, right black stack 16 and printing head, jet head sets 14 is connected on print bar 13 by connector, install additional by left chain wheel 17 and right pulley 18 at the left end of print bar 13 and right-hand member, left chain wheel 17, right pulley 18 is connected by the first belt with connector, left chain wheel 17 is driven by the second servomotor 19, right anterior branch support 2 adds right front print cartridge 20, right back bracing frame 3 adds right back print cartridge 21, right front print cartridge 20 is connected with left black stack 15 by front ink channel 22, right back print cartridge 21 is connected with right black stack 16 by rear ink channel 23, left support bar 5 adds USB interface 24, USB interface 24 is connected with jet head sets 14, print platform comprises left front printing bracing frame 27, right front printing bracing frame 28, left back printing bracing frame 29 and right back printing bracing frame 30, printing bracing frame is placed with 2-5 layer to be printed dull and stereotyped, print flat board and comprise left printing support bar 31 and right printing support bar 32, left printing support bar about 31 two ends are separately fixed on left front printing bracing frame 27 and right front printing bracing frame 28, right printing support bar about 32 two ends are separately fixed on left back printing bracing frame 29 and right back printing bracing frame 30, left printing support bar 31 and right printing support bar 32 are connected with front support roller 33 and rear support roller 34, front support roller 33 is connected on left printing support bar 31 and right printing support bar 32 respectively by the first fore bearing 35 and the first rear bearing 36, rear support roller 34 is connected on left printing support bar 31 and right printing support bar 32 respectively by the second fore bearing 37 and the second rear bearing 38, the first support bar 39 and the second support bar 40 is added in the left front of left front printing bracing frame 27 and left back printing bracing frame 29, first support bar 39 and the second support bar 40 are connected with the first feed preparation unit roller 41 and the second feed preparation unit roller 42, first feed preparation unit roller 41 is connected with the second support bar 40 with the first support bar 39 by bearing with the second feed preparation unit roller 42, angle between first support bar 39 and the second support bar 40 is between 30-60 degree, first feed preparation unit roller 41 and the second feed preparation unit roller 42 are driven by the 3rd servomotor 46, the 3rd support bar 43 is added in the left front of left front printing bracing frame 27 and left back printing bracing frame 29, 3rd support bar 43 is connected with preheat roll 44, preheat roll 44 is connected with the 3rd support bar 43 by bearing, the first heating wire 45 is added in preheat roll 44 inside, preheat roll 44 is greater than the first feed preparation unit roller 41 and the second feed preparation unit roller 42 horizontal range to left front printing bracing frame 27 and left back printing bracing frame 29 to the horizontal range of left front printing bracing frame 27 and left back printing bracing frame 29, preheat roll 44 is less than left printing support bar 31 and right printing support bar 32 vertical range to ground to the vertical range on ground, the 4th support bar 47 and the 5th support bar 48 is added in the right back of right front printing bracing frame 28 and right back printing bracing frame 30, 4th support bar 47 and the 5th support bar 48 are connected with first volume cloth rewinder roll 50 and volume Two cloth rewinder roll 49, first volume cloth rewinder roll 50 is connected with the 5th support bar 48 with the 4th support bar 47 by bearing with volume Two cloth rewinder roll 49, angle between 4th support bar 47 and the 5th support bar 48 is between 30-60 degree, first volume cloth rewinder roll 50 and volume Two cloth rewinder roll 49 are driven by the 4th servomotor 54, the 6th support bar 51 is added in the right back of right front printing bracing frame 28 and right back printing bracing frame 30, 6th support bar 51 is connected with dryer roll 52, dryer roll 52 is connected with the 6th support bar 51 by bearing, the second heating wire 53 is added in dryer roll 52 inside, dryer roll 52 is greater than first volume cloth rewinder roll 50 and volume Two cloth rewinder roll 49 horizontal range to right front printing bracing frame 28 and right back printing bracing frame 30 to the horizontal range of right front printing bracing frame 28 and right back printing bracing frame 30, dryer roll 52 is less than left printing support bar 31 and right printing support bar 32 vertical range to ground to the vertical range on ground, first servomotor 25, second servomotor 19, 3rd servomotor 46 is connected with programmable logic controller (PLC) 26 by wire with the 4th servomotor 54, left front printing bracing frame 27 and left back printing bracing frame 29, horizontal cross distance between right front printing bracing frame 28 and right back printing bracing frame 30 is less than left front bracing frame 1 and left back bracing frame 4, horizontal cross distance between right anterior branch support 2 and right back bracing frame 3, left front printing bracing frame 27 and right front printing bracing frame 28, horizontal vertical between left back printing bracing frame 29 and right back printing bracing frame 30 is less than left front bracing frame 1 and right anterior branch support 2 to distance, horizontal vertical between left back bracing frame 4 and right back bracing frame 3 is to distance.

During use, first, printing fabric is placed on the first feed preparation unit roller 41 and the second feed preparation unit roller 42, then fabric is walked around preheat roll 44 respectively, front support roller 33, rear support roller 34, be wrapped in after dryer roll 52 on cloth beam, cloth beam is placed on first volume cloth rewinder roll 50 and volume Two cloth rewinder roll 49, during stamp, USB interface 24 is connected with computer, printed drawings picture is delivered to jet head sets 14 by USB interface 24 by computer after image processing software process, during fabric printing, two kinds of printing models can be divided into, one is fixed-machine-head type, now jet head sets 14 is driven by the second servomotor 19 and moves along print bar 13 direction, then the 3rd servomotor 46 and the 4th servomotor 54 drive cloth beam and feed preparation unit roller motion respectively, a traverse thus drive fabric travels forward, and so forth, finally complete the stamp of image, two is mobile frame heads, now jet head sets 14 is driven by the second servomotor 19 and moves along print bar direction, then the first servomotor 25 drives print bar 13 to travel forward a traverse, 3rd servomotor 46 and the 4th servomotor 54 drive cloth beam and feed preparation unit roller motion respectively simultaneously, a traverse thus drive fabric travels forward, when print bar 13 moves to end, returns and moves forward, and so forth, the stamp of image is finally completed.

Claims (1)

1. a multilayer digital inkjet printing machine, comprise nose assembly and print platform, it is characterized in that: described nose assembly comprises left front bracing frame, right anterior branch support, left back bracing frame and right back bracing frame, support frame as described above is placed with 2-5 layer printer head group, described printer head group comprises left support bar and right support bar, two ends, described left support bar left and right are separately fixed on left front bracing frame and right anterior branch support, two ends, described right support bar left and right are separately fixed on left back bracing frame and right back bracing frame, the medial surface of described left support bar and right support bar has slideway, described left support bar and right support bar are placed with cylindrical print bar, described print bar is embedded in the inner side slideway of left support bar and right support bar by two ends, left and right and is connected on left support bar and right support bar, left front pulley and right front pulley is added in the left and right sides of described left support bar, described left front pulley is connected with the left built-in end of print bar by front belt with right front pulley, left rear pulley and right back pulley is added in the left and right sides of described right support bar, described left rear pulley is connected with the right built-in end of print bar by rear belt with right back pulley, described left front pulley and left rear pulley are driven by the first servomotor, described print bar is connected with jet head sets, described jet head sets comprises connector, left black stack, right black stack and printing head, described jet head sets is connected on print bar by connector, left chain wheel and right pulley is added at the left end of described print bar and right-hand member, described left chain wheel, right pulley is connected by the first belt with connector, described left chain wheel is driven by the second servomotor, described right anterior branch support adds right front print cartridge, described right back bracing frame adds right back print cartridge, described right front print cartridge is connected with left black stack by front ink channel, described right back print cartridge is connected with right black stack by rear ink channel, described left support bar adds USB interface, described USB interface is connected with jet head sets, described print platform comprises left front printing bracing frame, right front printing bracing frame, left back printing bracing frame and right back printing bracing frame, described printing bracing frame is placed with 2-5 layer to be printed dull and stereotyped, described printing flat board comprises left printing support bar and right printing support bar, two ends, described left printing support bar left and right are separately fixed on left front printing bracing frame and right front printing bracing frame, two ends, described right printing support bar left and right are separately fixed on left back printing bracing frame and right back printing bracing frame, described left printing support bar and right printing support bar are connected with front support roller and rear support roller, described front support roller is connected on left printing support bar and right printing support bar respectively by the first fore bearing and the first rear bearing, described rear support roller is connected on left printing support bar and right printing support bar respectively by the second fore bearing and the second rear bearing, the first support bar and the second support bar is added in the left front of described left front printing bracing frame and left back printing bracing frame, described first support bar and the second support bar are connected with the first feed preparation unit roller and the second feed preparation unit roller, described first feed preparation unit roller is connected with the second support bar with the first support bar by bearing with the second feed preparation unit roller, angle between described first support bar and the second support bar is between 30-60 degree, described first feed preparation unit roller and the second feed preparation unit roller are driven by the 3rd servomotor, the 3rd support bar is added in the left front of described left front printing bracing frame and left back printing bracing frame, described 3rd support bar is connected with preheat roll, described preheat roll is connected with the 3rd support bar by bearing, the first heating wire is added in described preheat roll inside, described preheat roll is greater than the first feed preparation unit roller and the second feed preparation unit roller horizontal range to left front printing bracing frame and left back printing bracing frame to the horizontal range of left front printing bracing frame and left back printing bracing frame, described preheat roll is less than left printing support bar and the right printing support bar vertical range to ground to the vertical range on ground, the 4th support bar and the 5th support bar is added in the right back of described right front printing bracing frame and right back printing bracing frame, described 4th support bar and the 5th support bar are connected with first volume cloth rewinder roll and volume Two cloth rewinder roll, described first volume cloth rewinder roll is connected with the 5th support bar with the 4th support bar by bearing with volume Two cloth rewinder roll, angle between described 4th support bar and the 5th support bar is between 30-60 degree, described first volume cloth rewinder roll and volume Two cloth rewinder roll are driven by the 4th servomotor, the 6th support bar is added in the right back of described right front printing bracing frame and right back printing bracing frame, described 6th support bar is connected with dryer roll, described dryer roll is connected with the 6th support bar by bearing, the second heating wire is added in described dryer roll inside, described dryer roll is greater than first volume cloth rewinder roll and the volume Two cloth rewinder roll horizontal range to right front printing bracing frame and right back printing bracing frame to the horizontal range of right front printing bracing frame and right back printing bracing frame, described dryer roll is less than left printing support bar and the right printing support bar vertical range to ground to the vertical range on ground, described first servomotor, second servomotor, 3rd servomotor is connected with programmable logic controller (PLC) by wire with the 4th servomotor, described left front printing bracing frame and left back printing bracing frame, horizontal cross distance between right front printing bracing frame and right back printing bracing frame is less than left front bracing frame and left back bracing frame, horizontal cross distance between right anterior branch support and right back bracing frame, described left front printing bracing frame and right front printing bracing frame, horizontal range between left back printing bracing frame and right back printing bracing frame is less than left front bracing frame and right anterior branch support, horizontal range between left back bracing frame and right back bracing frame.